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    • 5. 发明申请
    • COPPER ALLOY SHEET
    • 铜合金板
    • US20110223056A1
    • 2011-09-15
    • US12672092
    • 2008-07-24
    • Yasuhiro ArugaDaisuke HashimotoKoya Nomura
    • Yasuhiro ArugaDaisuke HashimotoKoya Nomura
    • C22C9/02C22C9/06C22C9/10
    • H01R13/03C22C9/00C22C9/02C22C9/06C22F1/08H01R13/11H01R43/16
    • The present invention relates to a Cu—Ni—Sn—P-based copper alloy sheet having a specific composition, where (1) the copper alloy sheet is set to have an electrical conductivity of 32% IACS or more, a stress relaxation ratio in the direction parallel to the rolling direction of 15% or less, a 0.2%-proof stress of 500 MPa or more and an elongation of 10% or more; (2) the X-ray diffraction intensity ratio I(200)/I(220) in the sheet surface is set to be a given value or less and at the same time, anisotropy in the stress relaxation resistance characteristic is reduced by fining the grain size; (3) the texture of the copper alloy sheet is set to a texture such that the distribution density of B orientation and the sum of distribution densities of B orientation, S orientation and Cu orientation each is set to fall in a specific range and bendability is thereby enhanced; or (4) the dislocation density measured using the value obtained by dividing the half-value breadth of the X-ray diffraction intensity peak from {200} plane in the copper alloy sheet surface by the peak height is set to a given value or more and press punchability is thereby enhanced. The Cu—Ni—Sn—P-based copper alloy sheet of the present invention is excellent in the properties required for a terminal or connector and further (1) has excellent strength-ductility balance, (2) satisfies the stress relaxation resistance characteristic in the direction orthogonal to the rolling direction, (3) has excellent bendability, or (4) has excellent press punchability.
    • 本发明涉及具有特定组成的Cu-Ni-Sn-P系铜合金板,其中(1)铜合金板的导电率设定为32%IACS以上,应力松弛率 平行于轧制方向的方向为15%以下,0.2%以上的应力为500MPa以上,伸长率为10%以上。 (2)将片材表面的X射线衍射强度比I(200)/ I(220)设定为规定值以下,同时,耐应力松弛特性的各向异性通过使 晶粒大小; (3)将铜合金板的织构设定为使得B取向的分布密度和B取向,S取向和Cu取向的分布密度之和各自落在特定范围内,弯曲性为 从而增强; 或(4)使用通过将铜合金板表面中的{200}面的X射线衍射强度峰值的半值宽度除以峰高而得到的值而测定的位错密度设定为规定值以上 从而增强了冲压性。 本发明的Cu-Ni-Sn-P系铜合金板的端子或连接器的特性优异,(1)具有优异的强度 - 延展性平衡,(2)满足 与轧制方向正交的方向,(3)具有优异的弯曲性,或者(4)具有优异的冲压冲压性。
    • 6. 发明申请
    • ALUMINUM ALLOY SHEET WITH EXCELLENT HIGH-TEMPERATURE PROPERTY FOR BOTTLE CAN
    • 铝合金板材,具有出色的高温特性
    • US20090053099A1
    • 2009-02-26
    • US11909665
    • 2006-03-07
    • Katsura KajiharaKiyohito TsurudaYasuhiro Aruga
    • Katsura KajiharaKiyohito TsurudaYasuhiro Aruga
    • C22C21/08
    • C22C21/08C22C21/00
    • An aluminum alloy sheet for bottle cans superior in high-temperature properties and capable of preventing thermal deformation thereof in coating and heat treatment and securing can strength after the heat treatment. The aluminum alloy sheet has the following composition: Mn 0.7-1.5%, Mg 0.8-1.7%, Fe 0.1-0.7%, Si 0.05-0.5%, Cu 0.1-0.6%, with the remainder being Al and inevitable impurities, and has a crystal structure elongated in a rolling direction and with an aspect ratio of crystal grains of 3 or more as determined through an examination from above of a part located at the center in the through-thickness direction. In the sheet, the amount of solute Cu is 0.05-0.3%, which means the amount of Cu in a solution separated from a precipitate exceeding 0.2 m in particle size by the extracted residue method using hot phenol, and the amount of solute Mg is 0.75-1.6%, which means the amount of solute Mg separated from a precipitate exceeding 0.2 m in particle size by the extracted residue method using hot phenol. The aluminum alloy sheet can have improved high-temperature properties without impairing its formability.
    • 一种用于高温性能优异且能够防止其热涂覆和热处理和固化的热变形的瓶罐用铝合金板,可以在热处理后具有强度。 铝合金板具有以下组成:Mn 0.7-1.5%,Mg 0.8-1.7%,Fe 0.1-0.7%,Si 0.05-0.5%,Cu 0.1-0.6%,其余为Al和不可避免的杂质,并具有 通过从位于贯穿厚度方向的中心的部分的上方检查确定的,在轧制方向上延伸的晶体结构和晶粒的纵横比为3以上。 在片材中,溶质Cu的量为0.05〜0.3%,这意味着通过使用热苯酚的提取残渣法从沉淀超过0.2μm的析出物中分离出的溶液中的Cu的量,溶质Mg的量为 0.75-1.6%,这意味着通过使用热苯酚的提取残留方法从沉淀超过0.2μm的沉淀物中分离出的溶质Mg的量。 铝合金板可以具有改善的高温性能而不损害其成形性。